eLife (Mar 2022)
NBI-921352, a first-in-class, NaV1.6 selective, sodium channel inhibitor that prevents seizures in Scn8a gain-of-function mice, and wild-type mice and rats
- JP Johnson,
- Thilo Focken,
- Kuldip Khakh,
- Parisa Karimi Tari,
- Celine Dube,
- Samuel J Goodchild,
- Jean-Christophe Andrez,
- Girish Bankar,
- David Bogucki,
- Kristen Burford,
- Elaine Chang,
- Sultan Chowdhury,
- Richard Dean,
- Gina de Boer,
- Shannon Decker,
- Christoph Dehnhardt,
- Mandy Feng,
- Wei Gong,
- Michael Grimwood,
- Abid Hasan,
- Angela Hussainkhel,
- Qi Jia,
- Stephanie Lee,
- Jenny Li,
- Sophia Lin,
- Andrea Lindgren,
- Verner Lofstrand,
- Janette Mezeyova,
- Rostam Namdari,
- Karen Nelkenbrecher,
- Noah Gregory Shuart,
- Luis Sojo,
- Shaoyi Sun,
- Matthew Taron,
- Matthew Waldbrook,
- Diana Weeratunge,
- Steven Wesolowski,
- Aaron Williams,
- Michael Wilson,
- Zhiwei Xie,
- Rhena Yoo,
- Clint Young,
- Alla Zenova,
- Wei Zhang,
- Alison J Cutts,
- Robin P Sherrington,
- Simon N Pimstone,
- Raymond Winquist,
- Charles J Cohen,
- James R Empfield
Affiliations
- JP Johnson
- ORCiD
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Thilo Focken
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Kuldip Khakh
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Parisa Karimi Tari
- In Vivo Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Celine Dube
- In Vivo Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Samuel J Goodchild
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Jean-Christophe Andrez
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Girish Bankar
- In Vivo Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- David Bogucki
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada; Compound Properties, Xenon Pharmaceuticals Inc, Burnaby BC, Canada
- Kristen Burford
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Elaine Chang
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Sultan Chowdhury
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Richard Dean
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Gina de Boer
- Compound Properties, Xenon Pharmaceuticals Inc, Burnaby BC, Canada
- Shannon Decker
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Christoph Dehnhardt
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Mandy Feng
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Wei Gong
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Michael Grimwood
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Abid Hasan
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Angela Hussainkhel
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Qi Jia
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Stephanie Lee
- Compound Properties, Xenon Pharmaceuticals Inc, Burnaby BC, Canada
- Jenny Li
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Sophia Lin
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Andrea Lindgren
- Compound Properties, Xenon Pharmaceuticals Inc, Burnaby BC, Canada
- Verner Lofstrand
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Janette Mezeyova
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Rostam Namdari
- Translational Drug Development, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Karen Nelkenbrecher
- In Vivo Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Noah Gregory Shuart
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Luis Sojo
- Compound Properties, Xenon Pharmaceuticals Inc, Burnaby BC, Canada
- Shaoyi Sun
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Matthew Taron
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Matthew Waldbrook
- In Vivo Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Diana Weeratunge
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Steven Wesolowski
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Aaron Williams
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Michael Wilson
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Zhiwei Xie
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Rhena Yoo
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Clint Young
- In Vitro Biology, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Alla Zenova
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Wei Zhang
- Chemistry, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Alison J Cutts
- ORCiD
- Scientific Affairs, Xenon Pharmaceuticals, Inc, Burnaby BC, Canada
- Robin P Sherrington
- Executive Team, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Simon N Pimstone
- Executive Team, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Raymond Winquist
- Executive Team, Xenon Pharmaceuticals Inc, Burnaby, Canada
- Charles J Cohen
- Executive Team, Xenon Pharmaceuticals Inc, Burnaby, Canada
- James R Empfield
- Executive Team, Xenon Pharmaceuticals Inc, Burnaby, Canada
- DOI
- https://doi.org/10.7554/eLife.72468
- Journal volume & issue
-
Vol. 11
Abstract
NBI-921352 (formerly XEN901) is a novel sodium channel inhibitor designed to specifically target NaV1.6 channels. Such a molecule provides a precision-medicine approach to target SCN8A-related epilepsy syndromes (SCN8A-RES), where gain-of-function (GoF) mutations lead to excess NaV1.6 sodium current, or other indications where NaV1.6 mediated hyper-excitability contributes to disease (Gardella and Møller, 2019; Johannesen et al., 2019; Veeramah et al., 2012). NBI-921352 is a potent inhibitor of NaV1.6 (IC500.051 µM), with exquisite selectivity over other sodium channel isoforms (selectivity ratios of 756 X for NaV1.1, 134 X for NaV1.2, 276 X for NaV1.7, and >583 Xfor NaV1.3, NaV1.4, and NaV1.5). NBI-921352is a state-dependent inhibitor, preferentially inhibiting inactivatedchannels. The state dependence leads to potent stabilization of inactivation, inhibiting NaV1.6 currents, including resurgent and persistent NaV1.6 currents, while sparing the closed/rested channels. The isoform-selective profile of NBI-921352 led to a robust inhibition of action-potential firing in glutamatergic excitatory pyramidal neurons, while sparing fast-spiking inhibitory interneurons, where NaV1.1 predominates. Oral administration of NBI-921352 prevented electrically induced seizures in a Scn8a GoF mouse,as well as in wild-type mouse and ratseizure models. NBI-921352 was effective in preventing seizures at lower brain and plasma concentrations than commonly prescribed sodium channel inhibitor anti-seizure medicines (ASMs) carbamazepine, phenytoin, and lacosamide. NBI-921352 waswell tolerated at higher multiples of the effective plasma and brain concentrations than those ASMs. NBI-921352 is entering phase II proof-of-concept trials for the treatment of SCN8A-developmental epileptic encephalopathy (SCN8A-DEE) and adult focal-onset seizures.
Keywords
